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RyR2-咖啡因结合位点 W4645R 功能丧失突变:对同步性和心律失常发生的影响。

Loss-of-function W4645R mutation in the RyR2-caffeine binding site: implications for synchrony and arrhythmogenesis.

机构信息

Cardiac Signaling Center of MUSC, USC and Clemson University, Charleston, SC, USA.

Cardiac Signaling Center of MUSC, USC and Clemson University, Charleston, SC, USA; Department of Regenerative Medicine and Cell Biology, MUSC,Charleston, SC, USA.

出版信息

Cell Calcium. 2024 Nov;123:102925. doi: 10.1016/j.ceca.2024.102925. Epub 2024 Jun 17.

DOI:10.1016/j.ceca.2024.102925
PMID:38908063
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11392648/
Abstract

AIMS

Previous studies have identified RyR2 W4645R mutation, located in the caffeine-binding site, to associate with CPVT1 pathology. Caffeine binding to its site is thought to displace the carboxyl-terminal domain to Ca-binding, allowing the tryptophan residue (W4645) to regulate Ca sensitivity of RyR2. To gain insights into regulation of RyR2 Ca-binding and its interaction with caffeine-binding site, we introduced W4645R-RyR2 point mutation via CRISPR/Cas9 gene-editing in human induced pluripotent stem cell-derived cardiomyocytes (hiPSCCMs) and characterized their Ca-signaling phenotype compared to WT hiPSCCMs.

METHODS AND RESULTS

W4645R-RyR2 cardiomyocytes had: (1) no significant change in I magnitude or voltage-dependence; (2) slightly reduced CICR; (3) altered relaxation kinetics of Ca-transients with no change in isoproterenol sensitivity; (4) complete loss of caffeine-triggered Ca release; (5) larger SR Ca leak resulting in 40 % lower SR Ca content, as determined by myocytes' response to 4-CmC; (6) lower incidence of calcium sparks and asynchronous spontaneous SR Ca releases.

CONCLUSIONS

W4645R-RyR2 mutation induces loss of caffeine-triggered SR Ca release and enhances SR Ca leak that underlie asynchronous spontaneous Ca releases, triggering arrhythmia and impairing cardiac function.

摘要

目的

先前的研究已经确定了位于咖啡因结合位点的 RyR2 W4645R 突变与 CPVT1 病理学有关。人们认为咖啡因与其结合位点结合会将羧基末端结构域置换到 Ca 结合,从而允许色氨酸残基(W4645)调节 RyR2 的 Ca 敏感性。为了深入了解 RyR2 Ca 结合的调节及其与咖啡因结合位点的相互作用,我们通过 CRISPR/Cas9 基因编辑在人诱导多能干细胞衍生的心肌细胞(hiPSCCMs)中引入 W4645R-RyR2 点突变,并将其 Ca 信号表型与 WT hiPSCCMs 进行了比较。

方法和结果

W4645R-RyR2 心肌细胞有:(1)I 幅度或电压依赖性无明显变化;(2)CICR 略有减少;(3)钙瞬变弛豫动力学改变,但异丙肾上腺素敏感性不变;(4)完全丧失咖啡因触发的 Ca 释放;(5)SR Ca 泄漏增加,导致 4-CmC 反应时 SR Ca 含量降低 40%;(6)钙火花发生率降低,自发性 SR Ca 释放不同步。

结论

W4645R-RyR2 突变诱导 SR Ca 释放的咖啡因触发丧失,并增强 SR Ca 泄漏,这是异步自发性 Ca 释放的基础,触发心律失常并损害心脏功能。

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